Design, development and verification of the 30 and 44 GHz front-end   modules for the Planck Low Frequency Instrument

R.J. Davis (1); A. Wilkinson (1); R.D. Davies (1); W.F. Winder (1); N.; Roddis (1); E.J. Blackhurst (1); D. Lawson (1); S.R. Lowe (1); C. Baines (1),; M. Butlin (1); A. Galtress (1); D. Shepherd (1); B. Aja (2); E. Artal (2); M.; Bersanelli (3); R.C. Butler (4); C. Castelli (5); F. Cuttaia (4); O.; D'Arcangelo (6); T. Gaier (7); R. Hoyland (8); D. Kettle (1); R. Leonardi; (9); N. Mandolesi (4); A. Mennella (3); P. Meinhold (9); M. Pospieszalski; (10); L. Stringhetti (4); M. Tomasi (3); L. Valenziano (4); A. Zonca (3) ((1); Univ. Manchester; UK; (2) Univ. de Cantabria; Spain; (3) Univ. degli Studi di; Milano; Italy; (4) INAF IASF Bologna; Italy; (5) STFC; UK; (6) IFP-CNR,; Italy; (7) JPL; USA; (8) IAC; Spain; (9) UCSB; USA; (10) NRAO; USA)

arXiv:1001.4743·astro-ph.IM·January 27, 2010

Design, development and verification of the 30 and 44 GHz front-end modules for the Planck Low Frequency Instrument

R.J. Davis (1), A. Wilkinson (1), R.D. Davies (1), W.F. Winder (1), N., Roddis (1), E.J. Blackhurst (1), D. Lawson (1), S.R. Lowe (1), C. Baines (1),, M. Butlin (1), A. Galtress (1), D. Shepherd (1), B. Aja (2), E. Artal (2), M., Bersanelli (3), R.C. Butler (4), C. Castelli (5)

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TL;DR

This paper details the design, construction, and testing of 30 and 44 GHz front-end modules for the Planck Low Frequency Instrument, achieving or surpassing all mission performance requirements with innovative design features.

Contribution

It introduces a novel phase-switch design and demonstrates that the FEMs meet stringent noise, stability, and polarization criteria for the Planck mission.

Findings

01

Noise temperatures close to quantum limits at both frequencies.

02

FEMs meet all critical mission performance requirements.

03

Innovative phase-switch design enhances amplitude and phase matching.

Abstract

We give a description of the design, construction and testing of the 30 and 44 GHz Front End Modules (FEMs) for the Low Frequency Instrument (LFI) of the Planck mission to be launched in 2009. The scientific requirements of the mission determine the performance parameters to be met by the FEMs, including their linear polarization characteristics. The FEM design is that of a differential pseudo-correlation radiometer in which the signal from the sky is compared with a 4-K blackbody load. The Low Noise Amplifier (LNA) at the heart of the FEM is based on indium phosphide High Electron Mobility Transistors (HEMTs). The radiometer incorporates a novel phase-switch design which gives excellent amplitude and phase match across the band. The noise temperature requirements are met within the measurement errors at the two frequencies. For the most sensitive LNAs, the noise temperature at the…

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